Title :
Measurement and analysis of workload effects on fault latency in real-time systems
Author :
Woodbury, Michael H. ; Shin, Kang G.
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Michigan Univ., Ann Arbor, MI, USA
fDate :
2/1/1990 12:00:00 AM
Abstract :
The authors demonstrate the need to address fault latency in highly reliable real-time control computer systems. It is noted that the effectiveness of all known recovery mechanisms is greatly reduced in the presence of multiple latent faults. The presence of multiple latent faults increases the possibility of multiple errors, which could result in coverage failure. The authors present experimental evidence indicating that the duration of fault latency is dependent on workload. A synthetic work generator is used to vary the workload, and a hardware fault injector is applied to inject transient faults of varying durations. This method makes it possible to derive the distribution of fault latency duration. Experimental results obtained from the fault-tolerant multiprocessor at the NASA Airlab are presented and discussed
Keywords :
control systems; fault tolerant computing; multiprocessing systems; program testing; real-time systems; software engineering; system recovery; NASA Airlab; control computer systems; coverage failure; fault latency; fault-tolerant multiprocessor; hardware fault injector; multiple latent faults; real-time systems; recovery mechanisms; synthetic work generator; workload effects; Computer errors; Control systems; Delay; Fault tolerance; Hardware; Laboratories; NASA; Physics computing; Real time systems; Time sharing computer systems;
Journal_Title :
Software Engineering, IEEE Transactions on
